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Vector Calculus Assignment I for IIST MA121, 2018, Exams of Advanced Calculus

Indian Institute of Space Science and TechnologyAdvanced Calculus

The solutions to assignment i of the vector calculus course offered by the indian institute of space science and technology (iist) in 2018. The assignment covers topics such as additive identities, additive inverses, scalar multiplication, euclidean norm, and the cauchy-schwartz inequality.

Typology: Exams

2018/2019

Uploaded on 01/30/2019

1998abhi
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Indian Institute of Space Science and Technology
MA121-Vector Calculus Assignment-I
2018
Prosenjit Das
Let Vbe a vector space over R.
1. Show that additive identity of V /Ris unique.
2. Let vV. Show that vhas unique additive inverse; and further show that the additive inverse
of vis 1·v
3. Let x1, x2Rand vV. Suppose, x16=x2. Show that x1·v6=x2·v.
4. Show that V/Rcontains either exactly one element or infinitely many elements.
5. Suppose V=R2and v= (x, y)V. Show that vcan not generate V.
6. Suppose V=R3and v1= (x1, y2), v2= (x2, y2)V. Show that v1, v2can not generate V.
7. Let V=R2and S={v1, v2} V. When will Sgenerate V? Give example of a case where S
will not generate V.
8. Let V=R3and S={(1,1,1),(1,2,3),(1,0,0)}. Show that Sis a basis of V.
9. Let Sbe a basis of V=R2. Show that Scontains exactly two elements.
10. Let S={v1, v2, v3, v4} V=R3. Prove that Sis never a basis of V.
11. Let ||.|| be the Euclidean norm on V=R2. Suppose v1, v2V. Show that ||v1+v2|| ||v1||+||v2||.
12. Let < . , . > be the Euclidean inner product ( dot product) on R2. Show the Cauchy-Schwartz
inequality: |< v1, v2>| ||v1||||v2||. When the equality holds?
13. If αRbe such that α0 and α < 1/n for each nN, then show that α= 0.
Let (a, b) be an open interval, and α, β (a, b) such that α < β. Show that (α, β)(a, b).
Let ARbe a bounded set. Define diam(A) := sup{|xy| | x, y A}. Show that
diam((a, b)) = ba=diam([a, b]).
Let (ai, bi) are non-trivial (not-null) open intervals for iN. Let A=\
i1
(ai, bi). Suppose
that α, β Aand α < β, then show that (α, β)A. What can be said about diam(A)?
Suppose dn=diam((an, bn)) and {dn} 0, then show that diam(A) = 0 where A=
\
i1
(ai, bi); and therefore show that there does not exist α, β Asuch that α < β; and
conclude that A, in this case, is singleton, if each (ai, bi) are non-trivial.
14. Show that in Rn
both Φ and Rnare open as well as closed sets.
infinite union of open sets is open; and therefore infinite intersection of closed set is closed.
finite intersection of open sets is open; and therefore finite union of closed sets is closed.
infinite intersection of open sets may not be open; and therefore infinite union of closed sets
may not be closed.
1

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Download Vector Calculus Assignment I for IIST MA121, 2018 and more Exams Advanced Calculus in PDF only on Docsity!

Indian Institute of Space Science and Technology

MA121-Vector Calculus Assignment-I

Prosenjit Das

Let V be a vector space over R.

  1. Show that additive identity of V /R is unique.
  2. Let v ∈ V. Show that v has unique additive inverse; and further show that the additive inverse of v is − 1 · v
  3. Let x 1 , x 2 ∈ R and v ∈ V. Suppose, x 1 6 = x 2. Show that x 1 · v 6 = x 2 · v.
  4. Show that V /R contains either exactly one element or infinitely many elements.
  5. Suppose V = R^2 and v = (x, y) ∈ V. Show that v can not generate V.
  6. Suppose V = R^3 and v 1 = (x 1 , y 2 ), v 2 = (x 2 , y 2 ) ∈ V. Show that v 1 , v 2 can not generate V.
  7. Let V = R^2 and S = {v 1 , v 2 } ⊂ V. When will S generate V? Give example of a case where S will not generate V.
  8. Let V = R^3 and S = {(1, 1 , 1), (1, 2 , 3), (1, 0 , 0)}. Show that S is a basis of V.
  9. Let S be a basis of V = R^2. Show that S contains exactly two elements.
  10. Let S = {v 1 , v 2 , v 3 , v 4 } ⊂ V = R^3. Prove that S is never a basis of V.
  11. Let ||.|| be the Euclidean norm on V = R^2. Suppose v 1 , v 2 ∈ V. Show that ||v 1 +v 2 || ≤ ||v 1 ||+||v 2 ||.
  12. Let <. ,. > be the Euclidean inner product ( dot product) on R^2. Show the Cauchy-Schwartz inequality: | < v 1 , v 2 > | ≤ ||v 1 ||||v 2 ||. When the equality holds?
  13. • If α ∈ R be such that α ≥ 0 and α < 1 /n for each n ∈ N, then show that α = 0.
  • Let (a, b) be an open interval, and α, β ∈ (a, b) such that α < β. Show that (α, β) ⊂ (a, b).
  • Let A ⊂ R be a bounded set. Define diam(A) := sup{|x − y| | x, y ∈ A}. Show that diam((a, b)) = b − a = diam([a, b]).
  • Let (ai, bi) are non-trivial (not-null) open intervals for i ∈ N. Let A = ⋂ i≥ 1

(ai, bi). Suppose that α, β ∈ A and α < β, then show that (α, β) ⊂ A. What can be said about diam(A)?

  • Suppose⋂ dn = diam((an, bn)) and {dn} −→ 0, then show that diam(A) = 0 where A = i≥ 1

(ai, bi); and therefore show that there does not exist α, β ∈ A such that α < β; and conclude that A, in this case, is singleton, if each (ai, bi) are non-trivial.

  1. Show that in Rn
    • both Φ and Rn^ are open as well as closed sets.
    • infinite union of open sets is open; and therefore infinite intersection of closed set is closed.
    • finite intersection of open sets is open; and therefore finite union of closed sets is closed.
    • infinite intersection of open sets may not be open; and therefore infinite union of closed sets may not be closed.